EP1306290B1 - Front portion of a vehicle - Google Patents

Description

The invention relates to a front end of a motor vehicle, in particular a passenger car, with the characteristics of Preamble of claim 1.

From DE 195 47 491 C1 is such a front end of a Passenger car known, the two essentially parallel to the vehicle longitudinal direction extending side members and having an integral carrier, wherein on this integral carrier a drive unit of the passenger car is mounted. The integral carrier has on each side of the vehicle a substantially running parallel to the vehicle longitudinal direction Base carrier on, each with a front support column and with a rear support column at the bottom of one of the side members is attached. In the known front end is also a central support column provided with which the base support between the front support column and the rear support pillar is also attached to the side rail. The side members are at least between the front support column and the rear Support column formed deformable in the vehicle longitudinal direction, that is, in the event of a crash, the longitudinal member in Deforming designated zones, thereby impact energy to absorb. Such measures can in Crash case the load on the vehicle occupants will be reduced which increases their probability of survival.

Another front part is known from JP 05-185 951 and comprises two substantially parallel to the vehicle longitudinal direction extending side members and an integral support, on a drive unit of the motor vehicle is mounted. Of the Integral carrier has on each side of a vehicle substantially parallel to the vehicle longitudinal direction extending base support on top of each one with a support column at the bottom one of the side members and the rear directly to a body component is attached. While each side member in vehicle longitudinal direction is formed deformable, everyone owns Base carrier in the vehicle longitudinal direction greater rigidity as the respectively associated side member. Furthermore are the front end portions and the rear end portions angled the base support and designed so that it a relative adjustment between base support and side member in the vehicle longitudinal direction substantially transverse to the vehicle longitudinal direction pivoting pivot axes pivot.

In such a front end of the integral carrier is so coupled with the bodywork that he is in the event of a crash relative to the longitudinal members in the vehicle longitudinal direction is displaceable. By this measure, the integral carrier causes no gain the deformable zones of the longitudinal member, so that their energy absorbing effect substantially unhindered can unfold. Due to the displaceability of the integral carrier also results in a displacement of it connected components, such as the drive unit, causing the zone intended for deformation, so-called "Crumple zone", larger dimensioned in the vehicle longitudinal direction can be.

For frontal parts of this kind this targeted pivotability or displaceability of the integral carrier achieved by that its base support with respect to the vehicle longitudinal direction are designed dimensionally stable and so a have greater rigidity, as the respectively assigned Side members. In the event of a crash thus causes a frontal load the front end, that the longitudinal members in the vehicle longitudinal direction deform and that the base carriers are together with the aggregates and components attached to it move back, with the support columns or the unwound End regions so fail or deform so that for the support columns or for the end areas one Pivoting movement around substantially transverse to the vehicle longitudinal direction running pivot axes results. This swivel adjustment the support columns or the end regions allows a Almost parallel adjustment or displacement of the base support to the rear. Usually, the two are basic carriers connected by cross beams and thus form one Supporting frame to which the mentioned aggregates or components the engine compartment are mounted. Accordingly forms the Integral carrier together with the attached aggregates and components a unit that in the event of a crash substantially can move completely backwards.

From EP 0 714 824 A1 a further front part is known, arranged at the below the side members integral carrier is that has a base support, which has a front Support column and a rear support column at the respective Side member is attached. The integral carrier serves here for supporting a steering column and includes a section which has a purposefully reduced stiffness to this Way to define a kind of bending point. From the above EP 0 714 824 A1 also has a further front part at, below the longitudinal beams an integral support is arranged, on which a drive unit of Vehicle is stored. This integral carrier possesses at each one Vehicle side a base plate, which has a rear Support column at a different from the respective side member Body component and a front support column and a Adapter is attached to the associated side member.

The US 6,099,039 a front part is removable, in which also arranged under two side rails an Intregralträger is, which has a base carrier on each vehicle side, the over two support columns at the respectively assigned Longitudinal beams is reinforced. Furthermore, it is on these basic carriers each a front bearing and a rear bearing for a wishbone of a front wheel is formed.

The present invention deals with the problem for a front end of the type mentioned an embodiment indicate a further improvement in occupant safety guaranteed.

This problem is inventively by a front end solved with the features of claim 1.

In the front part according to the invention is on each base support a front bearing and a rear bearing for a wishbone a front wheel is formed. Such wishbone are particularly dimensionally stable, whereby the stability of the respective base support by the control arm mounted thereon clearly increased. This construction thus supports the of the generic front end intended mode of action, the Integral carrier in the area of the base carrier in the event of a crash almost Undeformed to be able to adjust the rear, which the occupant safety elevated.

In addition, in the front part of the invention, the front Bearing below the front support column and the rear Bearings arranged below the rear support column, thereby the base carrier in the region of its highest rigidity the connection to the support columns in the event of a crash out is pivotable, which ultimately also for the safety of Occupant contributes.

According to a particular embodiment is a vehicle frame of the vehicle in the region of the integral carrier so designed so that each rear support column in the vehicle longitudinal direction to the rear a space to the vehicle frame having. This construction is also the frame side Displaceability of the base support guaranteed.

According to an expedient embodiment can at a Vehicle with drivable front wheels a drive tripod between the support columns and between base support and Side member from the drive unit to the respective front wheel be performed. A drive tripode is around a hinged shaft, by a gearbox of the drive unit leads to the front wheel. Due to the chosen arrangement of Drive tripode, especially if this near the rear Support pillar is positioned, in case of a crash an adverse collision of the drive tripod with a Support pillars are avoided.

If in a particular embodiment of the motor vehicle behind the rear support columns arranged a handlebar This can be useful in a continuing education Vehicle longitudinal direction to the rear a clearance to the Vehicle frame, which can be ensured that the handlebar in the event of a crash from the shifting integral support can be moved with.

Further important features and advantages of the invention result from the subclaims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the above and the following yet to be explained features not only in each case specified combination, but also in other combinations or be used alone, without the To leave the scope of the present invention.

A preferred embodiment of the invention is in the Drawings are shown in the description below explained in more detail.

Fig. 1

eine stark vereinfachte Prinzipdarstellung in einer Seitenansicht einer erfindungsgemäßen Frontpartie bei einem undeformierten Zustand und

Fig. 2

eine Ansicht wie in Fig. 1, jedoch bei einem deformierten Zustand.

Show, in each case schematically,

Fig. 1

a greatly simplified schematic diagram in a side view of a front part according to the invention in an undeformed state and

Fig. 2

a view as in Fig. 1, but in a deformed state.

According to FIGS. 1 and 2, a front part 1 of a otherwise not shown motor vehicle, in particular a passenger car, on each side of the vehicle Side member 2, which is substantially parallel to a by an arrow symbolized vehicle longitudinal direction 3 extends. Below the side members 2 is an integral support 4th arranged substantially over the entire vehicle width extends. The integral carrier 4 has at each Vehicle side a base plate 5, which is with a vertical distance to the associated side member 2 substantially extends parallel to the vehicle longitudinal direction 3. Both Base carrier 5 are usually not shown cross member firmly connected together and thereby form a support frame, at the different aggregates and components of the Vehicle are stored. For example, a drive unit of the motor vehicle on this support frame, e.g. via appropriate Engine mounts, stored.

Each base support 5 is above a front support column 6 and via a rear support column 7 fixed to the associated side member 2 connected. The corresponding connection points are designated 8 and 9 and each represented only symbolically. The front support column 6 has in the undeformed state as shown in FIG. 1, a forward tilt, while the rear support column 7, starting from the base support 5 to the rear is inclined. Between the pillars 6 and 7 and between the side member 2 and the base support 5 is a window 10th formed in which a drive stripe 11 from the inside to outside passed so as to drive unit with to connect a not shown, driven front wheel. The drive stripe 11 is in the window 11 near the rear Support column 7 is positioned.

Furthermore, a vehicle frame 12 is designed so that in the vehicle longitudinal direction 3 between the rear support column. 7 and the vehicle frame 12, a free space 13 is formed. In this space 13 is near the rear support columns 7 a Handlebar 14 arranged, which is a part of one of the rest not shown vehicle steering.

In the preferred embodiment shown here each base support 5 below the front support column 6 a front bearing 15 and below the rear support column rear bearing 16. The two bearings 15 and 16 are for storage a not shown arm of the front wheel. Such a wishbone is usually as a component with high rigidity formed in the context of usual crashes is virtually undeformable.

Each side member 2 is at least in a portion 17, the extends between the support columns 6 and 7, designed, that it deforms in the event of a crash in the vehicle longitudinal direction 3 is. The longitudinal beam 2 shown here is also in a front portion 18 in the vehicle longitudinal direction 3 deformable designed.

According to the invention, each base support 5 is designed in such a way that that he in the vehicle longitudinal direction 3 a greater rigidity has as the respectively associated longitudinal member. 2

In the event of a frontal collision of the vehicle against an obstacle comes to a frontal force, the corresponding Fig. 2 shows a deformation of the sections 17 and 18 of the Longitudinal member 2 in the vehicle longitudinal direction 3 causes. Shortened the length measured in the vehicle longitudinal direction 3 of the longitudinal member 2. A corresponding wrinkling 19, the occurs in the event of a crash in the deformation zones 17 and 18 is symbolically shown in Fig. 2. By between the Supporting columns 6 and 7 arranged deformable section 17th takes the distance between the attachment points 8 and 9, where the support columns 6 and 7 firmly connected to the longitudinal member 2 are off, according to the deformation. By the effective Forces will also be the integral support 4 or its support frame with the base supports 5 parallel to itself after moved back, with the high rigidity of the base support 5, possibly supported by the hinged, stiff Cross member, ensures that the base support 5 and Thus, the support frame while not deform substantially. In particular, those on the support frame or on the integral support 4 hinged units and component with rearward adjustment become.

Of particular importance here is the design of the Support pillars 6 and 7, in the area of their connection to the Side member 2 and in the region of their connection to the respective Base support 5 are designed deformable, in such a way that the support columns 6 and 7 in the course of the crash pivotal movements can perform to pivot axes that are transverse to Vehicle longitudinal direction 3 and run through the respective Connecting points of the support columns 6 and 7 extend therethrough. The respective pivot axes are symbolic in FIG and designated 20, 21, 22 and 23, respectively.

According to Fig. 2, the front support column 6 after the Crash therefore a respect to the base support 5 directed backwards Tilt. This means that the crash upper end of the front support column 6 to the rear at the bottom End of the front support column 6 has moved past. In appropriate Way has the crash of the lower end of the rear Support column 7 at the top of the rear support column 7 after moved past the rear, so that the rear support column 7 after the Crash with respect to the base support 5 a forward facing Has inclination. The crash is a lower end of the base carrier 5 penetrated into the free space 13, wherein the shifting integral carrier 4 possibly the handlebar 14 moves with Has.

In contrast to this - due to their connection - the Drive stripe mode 11 during the crash with respect to the longitudinal member 2 stay relatively stationary. Due to the arrangement of this drive tripod 11 in the window 10 near the rear support column. 7 can the integral carrier 4 relative to the drive stripe 11th move backwards without causing a collision between Integral carrier 4 and drive stripe 11 comes. Accordingly has the course of the crash in the vehicle attacking delays a favorable for the passengers Curve.

Fig. 2 clearly shows that the integral carrier 4 in the area its base support 5 also after the crash substantially undeformed is guaranteed so with a relatively high level of security can be that the on the integral carrier 4 Tailored components and units in the crash to the rear mitverstellen and so a relatively wide deformation of the longitudinal member 2 allow for energy absorption.

As between the front support column 6 and the rear support column 7 no further support column or the like arranged is, the window 10 has a relatively large area, thereby the components protruding through this window 10, such as. the drive strip mode 11, a relatively large Own adjustment.

Claims (5)

1. Front section of a vehicle, particularly a passenger vehicle,

   with two longitudinal supports (2), running essentially parallel to the lengthways direction (3) of the vehicle and

   an integral support on which a drive unit of the vehicle is supported and which has, on each side of the vehicle, a base support (5), running essentially parallel to the lengthways direction of the vehicle (3), that is, in each case, attached, below, with a front support column (6) and with a rear support column (7), to one of the longitudinal supports (2)

   whereby each longitudinal support (2) can, at least between the support columns (6, 7), be deformed in the longitudinal direction of the vehicle (3),

   characterized in that

   each base support (5) is exclusively attached, below, by means of its front support column (6) and its rear support column (7), to the associated longitudinal support (2),

   each base support (5) is developed such that it has greater rigidity in the lengthways direction of the vehicle (3) than the associated lengthways support (2),

   the support columns (6, 7) are developed and connected to the associated base support (5), such that they swivel, in the case of relative displacement of the base support (5) and the lengthways support (2) in the lengthways direction of the vehicle (3), and in that they swivel around swivelling axes (20, 21, 22, 23) running essentially transversely in relation to the lengthways direction of the vehicle,

   there is, on each base support, a front bearing (15) and a rear bearing (16), for a transverse guide rod of a front wheel,

   the front bearing (15) is disposed below the front support column (6) and the rear bearing (16) is disposed below the rear support column (7).
2. Front section in accordance with claim 1,
   characterized in that
   each rear support column (7) has, towards the back as seen in the lengthways direction of the vehicle (3), a free space (13) going as far as the vehicle frame (12).
3. Front section in accordance with claims 1 or 2,
   characterized in that,
   in the case of a vehicle with front-wheel drive, a drive tripod (11) is implemented between the support columns (6, 7) and, between the base support (5) and the lengthways support, from the drive unit to the given front wheel.
4. Front section in accordance with claim 3,
   characterized in that
   the drive tripod (11) is disposed close to the rear support column (7).
5. Front section in accordance with one of claims 1 to 4,
   characterized in that
   a connecting rod disposed behind the rear support columns (7) has, towards the back as seen in the lengthways direction of the vehicle (3), a free space (13) extending as far as the vehicle frame (12).

Images